High-temperature tribological properties of Ni-P alloy coatings deposited by electro-brush plating

High-temperature tribological properties of Ni-P alloy coatings processed by electro-brush plating on 20CrMo steel have been investigated. A baU-on-disc configuration was employed and 4 mm diameter Si3N4 balls were used as static counterpart. All the wear tests were carried out at 450℃ for 180 rain without lubricants. The electro-brush plating Ni-P coating is amorphous in as-deposited condition, and it becomes polycrystalline with the formation of Ni and Ni3P after heat treatment at 450℃for 1 h. The friction coefficient of the Ni-P coating is just 50% of that of the 20CrMo steel at the friction temperature of 450℃. A mild adhesive wear mechanism was found for the electro-brush plating Ni-P coating tested at 450℃, whereas for the 20CrMo steel at the same temperature a mixed adhesive and abrasive wear mechanism was observed.

Conductive and corrosion behaviors of silver-doped carbon-coated stainless steel as PEMFC bipolar plates

Ni–Cr enrichment on stainless steel SS316 L resulting from chemical activation enabled the deposition of carbon by spraying a stable suspension of carbon nanoparticles; trace Ag was deposited in situ to prepare a thin continuous Ag-doped carbon film on a porous carbon-coated SS316 L substrate. The corrosion resistance of this film in 0.5 mol·L^（-1） H_2SO_4 solution containing 5 ppm F- at 80°C was investigated using polarization tests. The results showed that the surface treatment of the SS316 L strongly affected the adhesion of the carbon coating to the stainless steel. Compared to the bare SS316 L, the Ag-doped carbon-coated SS316 L bipolar plate was remarkably more stable in both the anode and cathode environments of proton exchange membrane fuel cell（PEMFC） and the interface contact resistance between the specimen and Toray 060 carbon paper was reduced from 333.0 m？·cm^2 to 21.6 m？·cm^2 at a compaction pressure of 1.2 MPa.

Silver Hollow Microspheres: Large-scale Synthesis, Characterization and Electromagnetic Shielding Property

A facile and large-scale synthesis method to fabricate silver hollow microspheres with controllable morphologies and shell thickness is described using low-cost glass microspheres as templates. The method mainly involves two steps of the preparation of silver-coated glass microsphere core–shell particles by a controllable liquid reduced reaction of Ag[（NH3）2]＋ solution, which only produces silver nanoparticles anchored on the surface of the thiolated glass microsphere templates, and the removal of glass microspheres by wet chemical etching with HF solution. The products are well characterized by field emitted scanning electron microscopy （SEM）, transmitted electron microscopy （TEM）, X-ray photoelectron spectra （XPS）, X-ray diffraction （XRD） and energy dispersive X-ray （EDX） etc. The as-prepared core-shell particles and hollow particles have even and compact silver shells. The electromagnetic shielding coatings based on the silver hollow microspheres are demonstrated to have high conductivity, excellent shielding effectiveness and long durability, suggesting that the silver hollow microspheres obtained here are a novel light-weight electromagnetic shielding filler and will have extensive applications in the electromagnetic compatibility fields.

Effect of Silver Element on Microstructure and Properties of W-30Cu/TiC Composites

W-30 wt%Cu and TiC-50 wt%Ag were successfully synthesized by a novel simplified pretreatment followed by electroless plating. The 0 wt% TiC, 0.5 wt% TiC, and 0.5 wt%TiC-0.5 wt%Ag composite powders were added to W-30 wt%Cu composite powders by blending, and then reduced. The reduced W-30 Cu, W-30 Cu/0.5 TiC, and W-30 Cu-0.5 Ag/0.5 TiC composite powders were then compacted and sintered at 1 300 ℃ in protective hydrogen for 60 min. The phase and morphology of the composite powders and materials were analyzed using X-ray diffraction and field emission scanning electron microscopy. The relative density, electrical conductivity, and hardness of the sintered samples were examined. Results showed that W-30 Cu and TiC-Ag composite powders with uniform structure were obtained using simplified pretreatment followed by electroless plating. The addition of TiC particles can significantly increase the compressive strength and hardness of the W-30 Cu composite material but decrease the electrical conductivity. Next, 0.5 wt% Ag was added to prepare W-30 Cu-0.5 Ag/TiC composites with excellent electrical conductivity. The electrical conductivity of these composites(61.2%) is higher than that in the national standard(the imaginary line denotes electrical conductivity of GB IACS 42%) of 45.7%.

Preparation of silver-coated glass frit and its application in silicon solar cells

A simple electroless plating process was employed to prepare silver-coated glass frits for solar cells. The surface of the glass frits was modified with polyvinyl-pyrrolidone（PVP） before the electroless plating process. Infrared（IR） spectroscopy,field emission scanning electron microscopy（FESEM）, and x-ray diffraction（XRD） were used to characterize the PVP modified glass frits and investigate the mechanism of the modification process. It was found that the PVP molecules adsorbed on the glass frit surface and reduced the silver ions to the silver nanoparticles. Through epitaxial growth, these nanoparticles were uniformly deposited onto the surface of the glass frit. Silicon solar cells with this novel silver coating exhibited a photoelectric conversion efficiency increase of 0.33%. Compared with the electroless plating processes, this method provides a simple route to prepare silver-coated glass frits without introducing impurity ions.

Tectonic Dynamic Metallization of Silver-GoldHydrothermal Fluids in Proterozoic GneissTerrene Shear Zones, Suichang, Zhejiang, China

The Suichang mine is the largest silicified vein-type silver-gold mineralization system in Southeast China, whose ore bodies are controlled by shear zones developing in Lower Proterozoic gneiss terrene with initial migmatization, which is covered by Upper Jurassic and Lower Cretaceous volcanic rock system and cut by acidic igneous veins of Jurassic and Cretaceous. The conclusions are as follows: (1) The ore-forming fluid is defined as superhigh tectonic-metamorphic fluid on the base of : 1 (D)-(18O) values 2 fluid inclusions;3 trace elements of pyrite from ores. (2) The shear zone silicified orebod-ies occurred in proterozoic, Jurassic and Cretaceous, which have been transforms in part by ore-bearing comb quartz vein of volcanism.

基于无颗粒银导电墨水在不锈钢表面镀银工艺研究

目的采用无颗粒银导电墨水对不锈钢表面进行镀银研究,以绿色环保工艺替代传统电镀银技术。方法主要研究适用于不锈钢基材的前驱体银源、络合剂种类、不锈钢前处理方法、烧结固化温度对不锈钢表面银层微观结构及性能的影响,获得不锈钢基材上微观结构致密、性能良好的银层。采用X射线衍射仪、扫描电子显微镜、激光共聚焦显微镜、数字兆欧表对在不锈钢表面银膜层进行表征。结果不锈钢通过1,2丙二胺溶液处理后,采用银源草酸银为前驱体,此时银层微观结构最致密,具有最佳的附着力等级(5B)和最低的粗糙度(1.237μm),与1,2-丙二胺络合,乙醇为溶剂时,制备出的银层有机物挥发完全,微观结构致密,并且具有最低的接触电阻0.7Ω和粗糙度0.80μm。烧结固化温度为200℃时银层导电性最好。结论采用无颗粒银导电墨水对不锈钢表面进行镀银的新型工艺银层性能良好,可以简化传统电镀技术复杂的操作流程,减少传统电镀工艺所使用氰化物对人体造成的危害,并弥补应用受限的缺点。

都兰热水所出银盘及其相关问题

本文参照希腊罗马神话故事,并结合犍陀罗地区出土化妆盘和黏土块上的装饰题材,认为都兰热水墓群所出银盘的装饰题材表现的是罗马神话中阿波罗与达芙妮的故事,其中的人物包括阿波罗、达芙妮、达芙妮之父河神佩涅斯以及达芙妮变成的月桂树。与此同时,将日本美秀美术馆收藏的吐蕃鎏金银盘作为辅助材料进行了简要论述,旨在探讨希腊罗马文化因素曾经丝绸之路青海道向中原地区传播的情况。在对都兰出土银盘装饰题材释读和分析的基础上,还对都兰银盘上的月桂树树叶样式与唐代月宫故事镜上的桂树纹样之间的联系进行了论述。

基于分类处理-分质利用的电子电镀废水中金属离子资源化处理新技术研究进展

随着城市化、工业化以及农业现代化进程加快,电子信息行业快速发展的同时产生了大量电子电镀重金属废水。这类型废水成分复杂、赋存稳定、危害极大且具有一定资源属性,目前较流行的混凝沉淀法处理效果不佳,污泥量大,存在二次污染且无法资源化回收。基于此,归纳总结了电子电镀重金属废水的来源与危害,归纳分析了现行主要技术存在的不足,系统介绍了基于分类处理-分质利用的电子电镀废水中金属离子资源化处理的进展与最新研究成果,为电子信息行业清洁生产、重金属废水污染防治和资源化处理提供借鉴与技术支撑。

ZHL-02置换镀和电镀银层的耐蚀性能研究

镀银方法可分为置换镀和电镀,为了比较这2种方法制得的镀层的耐蚀性能和电偶腐蚀行为,利用扫描电子显微镜、XRD、电化学工作站、Tafel曲线和电偶腐蚀方法研究了以5, 5-二甲基酰胺为主配位剂的无氰镀银工艺中ZHL-02置换镀和ZHL-02电镀镀层的耐蚀性能和电偶腐蚀行为。结果表明:置换镀层结晶好,覆盖更完整,在同等厚度条件下,抗电偶腐蚀性能略优于电镀层。随着置换镀银时间的延长,镀层的自腐蚀速率逐渐下降。但其耗时长,且难以获得1μm以上的厚度,一定程度上限制了其应用。相较于置换镀,电镀的速率快得多,电镀5 min就可获得> 2.4μm的银镀层。随着电镀时间的延长,银层中会出现较大的颗粒,形成细小气孔等缺陷结构,电镀银时间为1、2、5 min时,对应的自腐蚀速率分别为7.15×10^(-3)、5.30×10^(-3)、4.27×10^(-3) mm/a。电镀时间从1 min延长到2 min,再延长到5 min时,镀层的平均电偶腐蚀速率出现了先下降后增大的现象。

SiC芯片封装纳米银烧结层的热机械分析及疲劳寿命预测

纳米银的热膨胀系数与模块中其他组件存在较大差异,导致在严苛环境下工作时发生热疲劳失效。因此,预测纳米银烧结层的热疲劳寿命成为关键问题。以SiC功率模块为对象,利用有限元仿真和修正的Coffin-Manson寿命预测模型,分析了纳米银烧结层在热循环载荷下的最大等效应力和疲劳寿命。进一步通过响应面法分析,以疲劳寿命为优化目标,选取了SiC芯片和纳米银烧结层最佳参数组合,并探究铜基板镀镍对疲劳寿命的影响。研究结果显示:在累积的热循环下,纳米银烧结层边角处的等效应力最大,最容易发生热疲劳失效。通过优化设计,当SiC芯片厚度取0.15 mm,纳米银烧结层厚度取0.1 mm时,最大等效应力降低了1.36%,疲劳寿命增加了1.57倍。此外,铜基板上的镍层与纳米银烧结层具有相适应的材料属性,能够降低纳米银烧结层的等效应力,并增加其疲劳寿命。

基于衬纬组织电加热针织服装的制备及其电热性能

为了拓展纬编衬纬组织在电加热针织服装上的应用,将镀银纱线作为衬纬纱线,均匀衬入纬编针织物中,织造3种不同组织的针织物并进行性能测试与分析。根据测试结果,选用结构最稳定、发热效果良好的空气层衬纬作为加热部位组织结构,设计并织造了一件电加热针织服装,同时进行发热性能测试。结果表明:在实验室温度为(20±2)℃且额定电压为1.0~3.5 V的情况下,电加热针织服装的腹部加热单元的平衡温度由24.9℃逐渐升温至36.9℃;背部加热单元的平衡温度由25℃逐渐升温至35.9℃;腰部加热单元的平衡温度由24.5℃逐渐升温至34.7℃,各加热部位平衡温度均满足人体所需。该研究结果可为衬纬组织在电加热服装中的应用及市场开拓提供理论参考。

银包覆法制备Ag-Cu-TiH_(2)焊膏的研究

Ag-Cu-Ti钎料可以实现Cu和Si_(3)N_(4)陶瓷的连接。然而,钎焊过程中Ti倾向于和Cu反应形成金属间化合物,降低了界面结合强度。本文采用化学还原法,以抗坏血酸为还原剂、Na_(2)EDTA为分散剂,30℃保温30 min,在Cu和Ti H_(2)表面包覆了一层均匀致密的Ag层。由于高活性的Ti降低了熔融Ag的表面张力,使得润湿角降低,焊料的铺展性能更好,此外,包覆Ag后显著抑制了焊膏中Ti和Cu的反应,提高了焊膏的活性,从而提高了覆铜板的界面结合强度。研究发现,包覆银的钎料在陶瓷上的铺展面积提高了8.4%;制备的陶瓷覆铜板剥离强度提高了16.7%。

镀银铜材料在大电流条件下的载流微动磨损特性

利用化学电镀方法在T2紫铜管表面镀银制备镀银铜试样,采用自主研制的切向微动磨损试验设备在圆柱/圆柱的正交点接触模式下进行室温载流切向微动磨损试验,探究了镀银铜试样在5 A电流以及不同法向载荷(5,10,15 N)和位移幅值(30,50,70,100μm)下的载流微动磨损行为及其磨损机制。结果表明:随着位移幅值的增加,镀银铜试样的载流微动磨损程度加剧,随着循环次数的增加,不同位移幅值下的摩擦因数整体呈先减小后增大最后趋于稳定的趋势,而接触电阻呈相反趋势,不同位移幅值下稳定阶段的摩擦因数相差不大;随着载荷的增加,载流微动磨损程度先变大后变小,当载荷为10 N时,磨损程度最大,此时有效接触面积较大,接触电阻较低;随着载荷的增加,稳定阶段的摩擦因数增大。镀银铜试样在磨损初期的磨损机制主要黏着磨损和氧化磨损,在磨损后期主要为磨粒磨损、氧化磨损和剥层,且随着循环次数的增加,氧化磨损程度加剧。

针织结构温度传感器用镀银纱线的性能

为了保证针织结构温度传感器的传感性能,文章运用FLUKE289数字万用表、V-2030T微电脑加热平台等设备测试了10种典型镀银纱线在伸直与模拟线圈弯曲状态下的电阻值,分析了光照氧化和水洗条件对纱线导电性能的影响,并得到了线密度、纱线状态、温度、光照氧化时间、水洗次数与电阻之间的关系。结果表明:10种镀银纱线的单位电阻在1.245~18.788Ω,温度电阻关系拟合R 2在0.89425~0.99040,具有良好的导电性和感温性,复丝越多的纱线电阻越小,线密度适中偏小的纱线感温性能更好;纱线的弯曲状态不会改变温度电阻规律,但会略微降低其感温线性度和导电性;光照氧化和水洗都会导致纱线导电性能变差;综合分析可设计复丝数适中偏少、捻丝结构的镀银纱线制备针织结构温度传感器。

镀银石墨粉制备银石墨复合材料的微观结构和性能

银石墨复合材料是一种具有理想综合性能的电接触材料。为了解决复合材料中石墨分布不均匀,界面结合较弱的问题,通过在石墨表面预先镀铜,再镀银的两步化学镀法,制备镀层致密均匀的预镀铜-镀银石墨粉,并采用热压烧结方式制备高性能银石墨复合材料。结果表明:预镀铜工艺的引入能改善复合材料中石墨的分布均匀性,减少界面处的孔隙和裂纹等缺陷,提高材料的致密度,并且使银基体在石墨颗粒周围形成连续的三维网状结构,有效提升复合材料的力学性能和导电性能。与活化-镀银石墨复合材料相比,预镀铜-镀银石墨复合材料的硬度(HV)由22.9提高至33.0,提升了44.1%;抗弯强度由70.4 MPa提高至97.2MPa,提升了38.1%;电阻率则由0.11μΩ·m降低至0.08μΩ·m。

组织结构对针织镀银纱织物电热性能的影响

为探究针织物组织结构对电加热性能的影响,选用镀银纱线编织6种组织结构不同(纬平针组织、1+1罗纹组织、1+1双反面组织、双罗纹组织、1+3毛圈组织、1+1假罗纹组织织物),但规格大小相同的针织物,并测试分析不同组织结构针织物间的最大负载电流、升温速度、热均匀度以及热稳定性能的差异。研究发现不同组织结构对针织物电热性能存在影响,其中双罗纹织物在施加0.9V电压后在7min内从室温上升至33.5℃,稳态温度达37.3℃,表面温度分布系数在30min内低于0.017,电阻变化率在90 min内低于3.3%,升温速率快、热均匀度高、产热稳定,是用于编织电热针织物较为合适的组织结构。研究结果为针织电加热服的设计开发提供了一定的参考。

基于银包覆中空纳米SiO_(2)微球的隔热涂层织物制备及性能研究

为提高锦纶织物的保暖隔热性能,采用3-巯丙基甲基二甲氧基硅烷(MPMDMS)对中空纳米SiO_(2)微球进行表面改性,通过辅助化学镀银工艺制备银包覆中空纳米SiO_(2)微球,将其与聚丙烯酸酯乳液混合后涂敷在锦纶织物表面,制备隔热涂层织物。采用扫描电子显微镜、X射线光电子能谱仪、傅里叶红外光谱仪等表征手段,探讨MPMDMS对中空纳米SiO_(2)微球的表面改性机理,分析MPMDMS质量分数对微球表面镀银形貌的影响;通过FTIR红外光谱仪及红外热成像仪测试了涂层织物的热红外反射性能和隔热性能。结果表明:MPMDMS改性效果明显优于多巴胺(DA),经MPMDMS改性后的中空纳米SiO_(2)微球表面,Ag生长更加均匀且覆盖率高;银包覆中空纳米SiO_(2)微球单分散性良好并保持了较低的导热系数(0.06925 W/(m·K));涂层织物热红外反射率(6~14μm)较锦纶织物提高了30%,将涂层织物置于37℃热板上10 min后,涂层织物表面温度为30.6℃,比锦纶织物低5.1℃;涂层织物透湿性和抗菌性能良好。该研究可为提升锦纶织物的隔热性能提供一定的技术参考。

一种铝及铝合金氰化镀银前处理酸洗工艺研究

在铝合金镀银过程中,为了获得完全无氧化膜和油污的富铝表面,通常使用硝酸型酸洗剂进行清洗。然而,这种方法可能导致铝合金表面清洗不彻底或过度清洗,并且产生污染性的氮氧废气,对环境造成污染。为了减少硝酸型酸洗剂的使用,我们进行了前期市场调研、中期小槽试验、后期生产试验和成本核算,以寻找替代的酸洗剂。通过这些研究,我们改良了6063铝合金高压电气零部件镀银表面处理前的酸洗工艺,提出采用M-605作为一次酸洗剂,采用MLD作为脱锌酸洗剂,替代目前工业生产中使用含有硝酸的一次酸洗和脱锌酸洗工艺。经过大量的生产验证,结果表明,这种镀银表面前处理酸洗工艺可以提高产品质量和合格率,具有广泛的推广和应用前景。同时,这种改良的工艺能够减少硝酸型酸洗剂的使用量,降低氮氧废气的排放,从而减少对环境的污染。

高低温条件下隔离开关零部件机械特性研究及稳定性提升措施

以隔离开关关键零部件为研究对象,设计高低温试验箱,研究环境温度变化对隔离开关关键零部件材料特性的影响程度,通过对6005-T5、T2Y、ZL101、Q235四种材料的抗拉强度、端面收缩率、0.2%非比例延伸强度、弹性模量和泊松比等关键性能指标的试验研究,掌握了4种材料关键性能指标随环境温度变化的规律。其次,搭建高低温试验平台并设计能够连续旋转的触头系统,研究环境温度对触头触指接触压力、弹簧力值和触指镀银层耐磨性的影响,得到了触头触指接触压力在5个温度点的变化率基本在±6%之间,触指弹簧力值变化率小于3%,触头触指镀银层磨损量随温度的升高先减小后增大,在0℃时,触头触指磨损量最小。并根据隔离开关结构特点,提出了针对材料、结构设计及高低温适应性试验等方面的措施,为进一步提高隔离开关在高低温环境下运行稳定性奠定理论基础。